Harvard Professor of Geology Stephen Gould is well known for his technical
work relating to evolution and for his popularwritings on natural history. His
name should be familiar to those involved in science-theology dialogue,
especially in connection with issues relating to creation and evolution. Gould
has been very critical of "creation science" and related movements.
While he has generally been civil in his statements about religion, in contrast
to someone like Richard Dawkins, his agnostic-leaning-toward-atheist position
has also been fairly clear. It would be easy to assume that he would really like
to get rid of religion.

For those who have made such an assumption, the present book will come as a
surprise. Gould proposes here a principle of Non-Overlapping Magisteria (NOMA)
to distinguish the domains where the forms of teaching of science and religion
are appropriate. "[The magisterium] of science covers the empirical realm:
what is the universe made of (fact) and why does it work this way (theory). The
magisterium of religion extends over questions of ultimate meaning and moral
value. These two magisteria do not overlap, nor do they encompass all
enquiry" (p. 6). He sees this as a simple way of eliminating conflict
between the magisteria and allowing each to focus on its proper concerns.

This type of proposal is not new, being the second of four ways of relating
the two areas which Ian Barbour set out in Religion and Science: Conflict,
Independence, Dialogue, and Integration. The Independence view has been
taken by a number of modern theologians, such as Bultmann, for whom religion as
a matter of personal faith is not really concerned with the natural world, and
by those who distinguish science and religion as different "language
games." It is hard to avoid the suspicion that some theologians find this
approach attractive because it avoids the possibility of the types of
embarrassment that happened with Galileo and Darwin. Gould is not making a
parallel attempt to avoid attacks from religion, being realistic enough to know
that proponents of "Bible science" and similar notions will pay little
attention to his arguments. He simply thinks that while science and religion are
both interesting, they are totally disparate realms.

As one would expect, Gould discusses "modern creationism" as
"a distinctively American violation of NOMA" (p. 125 ff.). But his
treatment of Bryan and the Scopes trial brings out the fact that the text which
Scopes used to teach evolution violated the principle from the other side by
making assertions about the superiority of "the Caucasians" to other
races. "Bryan advocated the wrong solution," Gould says, "But he
had correctly identified a serious problem."

As a proponent of the Independence view, Gould makes pointed criticisms of
other ways of relating science and religion. He demolishes the fallacy that
everybody in the Middle Ages thought that the world was flat on his way to
demonstrating that Drapers and Whites Conflict or "warfare of science
with theology" view was greatly overstated. His criticisms of the
Integration view, which he labels syncretic, are more current, zeroing in on
some recent reports about science-theology dialogue and the Templeton
Foundation.

Genuine syncretism, which tries to erase the distinctions between science and
religion, should be rejected, but Gould overstates the case, attacking what
seems to me appropriate dialogue between the two. Non-overlapping magisteria
should not mean that there could be no points of contact or flow of ideas
between the two.

A serious problem with Goulds proposal is that, in the Enlightenment
spirit of a total fact-value split, religion would finally be unable to say
anything about the physical world, and thus have doctrines of creation or
eschatology without any real content. It is certainly true, as Gould argues in
Chapter 4, that the status of humanity proclaimed in Psalm 8 cannot simply be
inferred from observations of the natural worldbut Ps. 8:34 makes that
clear! It is not intended as a statement of natural theology but of revelation,
and the Christological interpretation of it made in Hebrews 2 points toward the
proper way of dealing with the disturbing aspects of nature which Gould
emphasizes. Religion does not derive "ultimate meaning" from
scientific data, but if the meaning really is ultimate it should have some place
for that data.

Goulds arguments and examples are well stated and, in the irenic spirit
which he intends here, should help to take the heat out of some debates between
science and religion and to avoid the pitfalls of facile integration. But they
will not, and should not, end dialogue between the two magisteria.

"Can science dispense with religion?"an intriguing question that
is answered in brief responses from thirty theistic scholars. The individuals
come from a range of disciplines, countries, and religious commitments (six are
Muslims and twenty-four are Protestant, Catholic, or Orthodox Christians) making
for a diverse collection of ideas. The editors background in physics and
Islam is aptly applied in creating this book whose aim is to "contribute to
the illumination of the relation between science and religion" (p. 1).

Each contribution is a response to the following questions:

1. What is your definition of science and religion?

2. Do you see any conflict between your definitions of these two concepts?

3. Where do you think that there may have been a conflict between the two?

4. What have been the grounds for the development of conflict between these
two?

5. What has been the role of religion in the development of science in the
West?

6. Can we have a religious science?

7. Can science dispense with religion?

8. Can one separate the domains of activity of science and religion
completely?

The value of the book lies in the variety of perspectives on science and
religion provided by authors of vastly different backgrounds and specialties.
Brief biographical vignettes precede each essay, providing a frame of reference
that helps in understanding each authors viewpoint. This background provides
an appreciation of the similarities and differences between the various
contributors and diverts attention from the repetition that necessarily occurs
with a collection of this type.

Several articles are particularly valuable in encapsulating profound ideas in
succinct statements. For example, "we cant have religious science
because religion is accepted freely, unlike science" (p. 82) or that
religious science will always mean " the understanding of religion as
some kind of knowledge [whereas] the main goal of religion is not knowledge
but salvation" (p. 121). The issue of religious science was generally
thought to be an oxymoron except for the caveat that a religious scientist
"may indeed attain to a far deeper understanding of what science has
unearthed than is possible from a profane or secular point of view" (p.
197).

Can Science Dispense with Religion? provides a unique contribution to the
dialogue between science and religion. The format provides a meeting-in-print
that, like most meetings, contains a mixture of diamonds and stones depending on
individual interests. This book is a valuable resource for those teaching in the
area of science and religion, since the questions and responses lend themselves
to interactive classroom discussions.

I, as well as most readers of this journal, harbor an interest in both the
scientific way of looking at the world and the theological/Christological
approach to understanding this same world. Unfortunately, the last several
centuries have witnessed many types of intellectual imperialism with various and
often extreme positions taken by theologians and scientists alike. This
collection of essays attempts to present several defensible models of relating
science and theology, especially in light of the postmodernist critique.

The subject matter is not for the casual reader. Some of the contributions
are quite dense and theoretical. This is in some sense unavoidable since the
rethinking of the relationship between theology and science must delve into the
complex and sometimes murky areas of epistemology, metaphysics, philosophy of
science, and philosophy of religion in some fundamental ways. Readers looking
for a helpful way to think about some classic evolution/Bible issue, such as how
to make sense of physical anthropology and hominid fossils, will need to look
elsewhere. These essays attempt to inform how one might make sense of data and
theories and ideas from diverse fields of human knowledge.

These leading American and European scientist-theologians move "beyond
the work of first-generation thinkers in the field," such as Peacocke,
Barbour, and Polkinghorne. Six models are presented: (1) post-foundational
epistemology, (2) critical realism, (3) scientific naturalism, (4)
non-integrative pragmaticism, (5) complementarity, and (6) contextual coherence
theory.

Kees van Kooten Niekerk, Willem Drees, Eberhard Herrmann, and Fraser Watts
join the two editors in explicating these varying ways of organizing thinking. I
found all the contributors made helpful observations and comments pertinent to
the relationship between science and theology, though the six contributions are
diverse and often mutually exclusive. One cannot read the book and simply agree
with all the points made by each author! In this line, I would have appreciated
the authors dealing and debating with a concrete example from the history of the
science-theology debate (e.g., the status of the anthropic principle within
Christian apologetics or genetic determinism). I found myself attempting to
focus the often general and theoretical comments into more practical and thorny
"real issues," with only moderate success.

Rather than attempt to summarize or evaluate each of the models, I will focus
on the lengthiest and, in my opinion, the most helpful model: Gregersens
contextual coherence theory for the science-theology dialogue. Gregersen,
following Nicholas Rescher, points to the criterion of coherence as a critical
norm relevant to all forms of knowledge. "Coherence means that different
beliefs (or practices) are justified insofar as they are interconnected
within a logically consistent and substantially comprehensive pattern of thought
(or practice)." However, this needs to be balanced with an appreciation of
epistemic diversity or the differences in our approaches to reality. Gregersen
cites the different descriptions of the nature of water (chemical, biological,
fluid dynamic, symbolic, recreational) to differentiate intrinsic from
relational properties. Thus, our web of knowledge will have patches of tightly
integrated structures (redox chemistry) with looser connections to other areas
of knowledge (cell metabolism or sociological theory). No realm of knowledge
needs to subsume or reduce other areas but there should be some sort of
compatibility or acknowledgment/modification in light of other relevant areas of
knowledge. However, science qua science is more tightly integrated and isolated
than theology. Thus, theology needs to integrate the natural history of the
world and what we know about DNA and personality as part and parcel of its
mission, whereas science proceeds quite indifferently to advances or changes in
Old Testament hermeneutics. In this sense, the "sciences cannot help but
influence the self-understanding of theology; but not so the other way
around." The attempt of theology to make a coherent web or map of knowledge
is more akin to the classic scientific materialists attempt to do the same.
Both use scientific knowledge to develop a (hopefully) coherent and helpful
world view.

Gregersen shows how Resher attempts to distinguish his coherence theory from
its rivals in the context of cognitive pluralism. He dismisses skepticism
(nothing goes) as self-defeating. Likewise, he contrasts his position with the
indifferentism of Rortys pragmaticism (anything goes). Putmans syncretic
(it all goes) is also used as a foil to delineate the fourth and final position,
perspectival rationalism. Gregersen illustrates how this model deals with real
historical cases of scientific progress/change, such as Priestleys phlogiston
theory. He summarizes that the "realist claims are grounded in the fact
that the applicative (experimental) and the theoretical cycles have historically
reinforced one another. A corroboration by coherence has been achieved."

Gregersen goes on to show how this might provide an alternative to Murpheys
recasting of theology as an empirical research program. He shows how a critical
incorporation of scientific theories allows theology to grow in its
understanding of the world without losing its ability to critique the science or
the associated scientific materialist world view of some scientific
spokespersons. He compares and contrasts the reaction of various theologians
(Henry Drummond, Cardinal Newman, Frederick Temple, Eduard Geismar, Aquinas,
Paley, and Peacocke) to evolution in order to show how the contextual
coherentist model can inform and guide the construction of our world view or
"raft of knowledge." Gregersen is not content with models that do not
allow for "any cross-fertilization of perspectives between scientific and
religious views of life." The precept "Connect!" aims at more
than mere "compatibility," but a "rational competition between
different meta-scientific, philosophical or theological views of reality."
Thus, it allows for the fact of cognitive pluralism within a common framework of
rationality.

In summary, interested readers will profit greatly from this tome complete
with notes and bibliographies for each chapter/contribution.

This fascinating and challenging, albeit very short, book is written by a
physical chemist who has been on a lifelong search for evidence, particularly
from quantum mechanics, of a transcendent part of physical reality. In just over
one hundred pages, the author argues that the insights of quantum mechanics
provide the basis for a new covenant between human minds and the mind-like
background of the universe. Unlike classical science that took meaning out of
life and separated fact from value, findings from the study of quantum phenomena
point to a reintegration of these elements. Material things seem to have a
nonmaterial basis. The components of real things are not real in the same way
that the things they form are real. Local order is affected by non-local,
faster-than-light, events. Choice and chance play a large part in creating the
visible order of things, and observation creates reality. In violation of common
sense, and perhaps in opposition to what many would call scientific knowledge,
these phenomena describe the transcendental physical reality of the universe.

Sh”fer develops his argument by describing what he considers to be the
transcendent aspects of knowledge, reality, human nature, and divine reality. By
transcendent he means those things that are beyond our control and beyond
empirical or rational verification. It is through consciousness, he argues, that
we become aware of the transcendent, and it is through our conscious minds that
we participate in and communicate with nature. As he states at one point,
quoting an unknown source: "The universe is network, not clockwork."

The second half of the book is made up of eighteen small appendices that
contain explanations of a number of the scientific and philosophical concepts
that the author employs throughout. These include Poppers logic of science,
empty atoms as Platonic forms, the nonlocality of the universe, and defining a
realistic view of the world. In a discussion of the illegitimate components of
knowledge, the author argues that a realistic view of the mind sees it as deeply
affected by cultural traditions and operating on epistemic, aesthetic, and
ethical principles. The kernel of the authors argument is that the universe
as a whole operates on these same principles.

Some readers may object to the rather terse style of this book, but the
author states quite clearly that he is presenting his conclusions, and not
necessarily the details of formulation, from several decades of thought on these
matters. This book should be of particular interest to those who find it
difficult to understand how scientists can claim to be both religious and
scientific. It should also interest those who are looking for a fairly
sophisticated, yet highly readable, example of how scientific principles can
help us to understand seemingly nonempirical and nonrational aspects of the
universe.

Reviewed by Robert A. Campbell, University College of Cape Breton, Sydney,
NS, Canada B1P 6L2.

This is an unusual book, possibly an inaugural work of its kind. Cremos Forbidden
Archeologys Impact is a compilation of reports, letters, challenging
papers, internet messages, and correspondence the author has had with
scientists, and his written responses to the multitude of criticisms, which he
claims professional journals have refused to print. This book is based on the
response to his 1993 work titled Forbidden Archeology, a controversial extremist view of human antiquity that literally stunned the scientific
community. The book crossed many intellectual and cultural boundaries with the premise that the scientific community has been suppressing knowledge about a
full array of beliefs to include creationist ideas and a plenitude of
conspiracies.

Criticism of Cremos work, both the original volume and this follow-on
chronicle, runs the gamut of a "cornucopia of dreck" to the other end
of the spectrum where some claimed that the books were "the landmark
intellectual achievements of the late 20th century." Foreword writer, Colin
Wilson, claims that Forbidden Archeology "is simply an extremely
erudite and extremely amusing account of what might be called the other side of
the post Darwinist story." The vast array of opinions on the original work
makes the second book all that more interesting, for Cremo responds to each one
in a definitive, albeit, somewhat disorganized, manner.

Cremo is an author and researcher specializing in the history and philosophy
of science. His persistent investigation during the eight years of writing Forbidden
Archeology documented a major scientific cover-up, making him a world
authority on archeology anomalies regarding human antiquity. In 1996 an NBC-TV
special, The Mysterious Origins of Man, hosted by Charleston Heston,
featured Cremos original work which exposed the scientific world to a series
of conspiratorial allegations.

By Cremos admission, "the problem with the scientific method is that
it is driven far too much by theory, and not enough by fact. By which I mean
that science moves forward by the development, and subsequent testing, of
hypotheses, when at times formation of hypotheses should be strenuously avoided
because they grow into filters which taint otherwise vital and compelling
data." What this book does is document the explosive reactions to Cremos
assertions. It also continues to ignore conventional archeological wisdom by
claiming that "science is not comfortable with unknowns." So, rather
than leave a question unanswered (e.g., "How old is humankind?"),
Cremo attempts to tackle head on what many scientists refuse to ponder. In both
books, there is no doubt that Cremo has the courage not to ignore data which
"flies in the face of accepted scientific wisdom. "

To offer an opinion of this book requires exploring the intent of the
original work. However, since both works are separate in construct, Cremos
newest book is nothing short of a menagerie of disjointed letters and reports.
The author obviously had no intention of intertwining these textual elements
into a cohesive woof, so readers should not expect the book to develop any
central argument.

The curious reader may find Forbidden Archeologys Impact worthwhile,
if for no other reason than to see how an author may defend a fairly unpopular
thesis. While this book is long and laborious at times, it provides enough
information to stimulate further study of his original work.

Greene, History Emeritus Professor at the University of Connecticut (Storrs),
is one of the foremost experts in the history of evolutionary thought. His The
Death of Adam: Evolution and Its Impact on Western Thought (1959) and Darwin
and the Modern World View (1961) are now classic studies of the influence of
Darwin on Western intellectual life. Debating Darwin is an
autobiographical retrospective of Greenes distinguished career in which he
explores Darwinism both as a successful scientific theory and as a world view
that served essentially as a religious and philosophical faith.

Greene, an Episcopalian, rejects the notion that scientific explanations are
total explanations and that nature as known to science exhausts reality. In
particular, he finds the efforts of leading Darwinists to derive knowledge of
human duty and destiny from evolutionary biology unconvincing. Moreover, his
rhetorical analysis of leading evolutionary thinkers works indicates that
they have resisted the notion of a purposeless world stripped of meaning and
value, despite the logic of neo-Darwinistic positivism. Predictably, Greenes
views were not always received with enthusiasm, but they did bring him into
extended correspondence with two of the towering figures in twentieth-century
Darwinian thought: Theodosius Dobzhansky and Ernst Mayr. One of the great
virtues of Debating Darwin is the reprinting of a good deal of this
correspondence (some, but not all, of it published elsewhere) along with essays
which provide the context for the exchanges.

Greenes correspondence with the Harvard evolutionary biologist
(ornithologist) Mayr began in 1979 and continued into the late 1990s. It is
supplemented in Debating Darwin with several chapters of Greenes
analysis of Mayrs evolutionary philosophy. The Greene-Mayr exchanges are
certainly interesting, but reveal that the world views of Mayr, an atheist, and
Greene are so different that it is difficult for them to find substantive common
ground. Mayr cannot fathom how anyone who really understands the theory of
evolution could be a theist. Most scientists, Mayr contends, are like himself,
deeply religious people, but see no need for theological dogma based upon some
divine revelation.

While Greenes dialogue with Mayr dominates the book, his correspondence
with the Columbia University geneticist Dobzhansky is far more interesting, no
doubt because they share the same theistic assumptions. The two began
corresponding in December 1959, following the Darwin centennial celebration at
the University of Chicago, and continued until the summer of 1962. Their
correspondence focuses on Greenes assertion of the religious role of metaphor
in evolutionary biology. Greene contends that Dobzhansky and other leading
Darwinians illegitimately use teleological and vitalistic figures of speech in
describing the evolutionary process they hold to be mechanistic, blind, and
purposeless. He suggests that the evolutionary literature is full of words and
figures of speech smuggled into the discourselike "progress,"
"improvement," "higher," and "advance"that
clearly suggest striving, purpose, and achievement. The exchanges with
Dobzhansky reveal a fault-line that still divides many Christian intellectuals
today. Dobzhansky noted quite perceptively that for Greene "evolution is
something unwelcome though unavoidable," but for himself "evolution is
a bright light" (p. 99).

Debating Darwin is extremely interesting intellectual history and
autobiography. While its organization is at times challengingwith frequent
citations from some of Greenes previously published essays interspersed with
current commentary, sections of the book are riveting. Debating Darwin
illustrates the value of a historians sustained examination of the world view
implications of modern science. Throughout his career, Greene has voiced
unpopular ideas within the academy about a scientific world view that has
functioned as a secular faith. Without calling into question the
"methodological naturalism" of science or advocating anything like a
"theistic science," he has exposed the philosophical pretensions of
leading Darwinians.

This book has an important message from a fastidious observer of owls:
Science is more than technology. Technology is only one tool of the scientist.
Contemporary students, dazzled by high tech gene transfer, humming laboratories,
chromosome painting, GIS methods, and a plethora of other techniquesall
wonderful in themselvesseldom think of Darwins voyage on the Beagle
as a scientific process. We usually use the phrase the scientific methodhypothesis,
experimentation, etc. Is this what Darwin used? No. Much of science is careful
observationa trait we need to develop early on in the training of young
scientists. This book deals with careful observation as well as experimentation
using such modern techniques as radio telemetry.

Terman, biology professor at a small Christian college, rescues a great
horned owl and develops a remarkable friendship with the animal over a period of
several years. The human-animal interface is perhaps the thing I found most
fascinating about the story of Stripey the owl. Can humans communicate with
owls? Is the young bird deleteriously imprinted by contact (I almost said
fellowship) with humans? Will the bird allow a human friend access to its home?
Does Stripey have a family? For answers to these and more, read the book and the
surprise ending!

When I first read the book, I was annoyed by what I thought were unnecessary
digressions about problems in the authors life. Then I realized that
consciously or unconsciously, the author was chronicling his life parallel to
that of the owl. We, the readers, are observing him in the cycles of the
academic year, family concerns, and professional growth. These are some of the
"basic themes of life" Terman refers to in the preface.

It is obvious that the author loves Stripey. As a result, we are presented
with page after page of poor quality photographs, rather like proud grandparents
who understand their offspring more than their camera.

Anyone interested in careful research and the simple joy of reading about
animals will find this book delightful. It shows how real science can be done in
the fencerows and fields of Kansas and, by extension, in our own backyard.

Sobosan is professor of theology at the University of Portland, Oregon. He
has written several books including The Ascent to God, Bless the Beasts,
and The Turn of the Millennium: An Agenda for Christian Religion in an Age of
Science. The last title provided some of the materials in the book under
present review.

This book describes the authors admiration of the universe as revealed by
astrophysics. It is also a reflection of the authors appreciation of science.
Sobosan marvels at the beauty of the stars in the night sky and the fascinating
explanation of their formation. In addition to his observations of nature and
comprehension of scientific theories, he discusses some theological aspects of
cosmology. He believes that, while Christian theology has intensely depended
upon philosophy for its doctrines, now is the time to depend similarly on
contemporary sciences. He argues that there should be a union between theology
and science, and theology must first establish this union.

Sobosan is well read on contemporary sciences and cosmology, as evidenced by
the numerous references in these fields cited in Romancing the Universe.
However, the sciences under discussion in this book are predominantly astronomy
and physics. Biology and chemistry are rarely mentioned.

Sobosan brings up an interesting issue of applying the indeterminacy notion
in quantum theory to the macroscopic world. He then refers to a belief that all
things in this universe are somehow interconnected with one another, and so
influences are reciprocal. Sobosan mentions two hypothetical examples: (1)
plucking a flower might trouble a star; and (2) the flapping of a butterflys
wings in Bolivia might produce a windstorm in New York. This belief sounds like
part of Buddhist teachings on wisdom and resembles the holistic concept in
Eastern philosophy.

Though the author writes in plain English, some parts of the text are hard to
follow. Sentences over fifty words are common. One sentence has 103 words! To
understand such lengthy sentences, one must read them repeatedly. Thus, one can
easily lose the main point of the discussion. In addition, double negatives
abound throughout the book. The main text is only 154 pages long, yet there are
215 endnotes, most of which are as long as a paragraph. Those numerous and
lengthy endnotes, though expository, are quite distracting.

Stoner earned a B.S. in physics, was involved with the development of the
optical disc, and holds two U.S. patents. His grandfather, Peter W. Stoner, was
chairman of the natural science division at Westmont College, a charter member
of the American Scientific Affiliation, and an elder in the Presbyterian Church.
His parents were engineers who both worked on the Manhattan Project.

Many ASA members have read Peter Stoners book, Science Speaks (Van
Kampen Press, 1952; Moody Press, 1963 and 1969). It is relevant to compare Dons
book with his grandfathers. The elder Stoner apologized to fellow Christians
on behalf of scientists. He acknowledged that the Bible had been under attack
from the natural sciences, but he showed that more recent findings (especially
in astronomy) tended to agree with biblical teachings about the universe.
Therefore, science was not the enemy of faith, as many had suspected. In
contrast, the younger Stoner is calling his fellow Christians to apologize to
scientists. Since science properly understood cannot conflict with the Bible
rightly interpreted, religious people must stop treating scientists as enemies.

In the foreword, Hugh Ross emphasizes both the reality of a science-religion
conflict and the need to end it. Young-earth creationism, says Ross, has been a
stumbling block for believers and nonbelievers. It has brought divisions among
Christians; it has made secular society more skeptical of the church; and it has
provided ammunition for those who seek to delete all biblical references from
public education.

I appreciate Stoners call to humility in Chapter 1, which is entitled
"Judging Ourselves First." He reminds us that we often remember
biblical details incorrectly. Worse, we cannot always be sure what Bible words
meant in the original languages. For example, the Hebrew terms rendered day
and die in Gen. 2:1617 could each be taken several different ways. The
most literal interpretation, that Eve would drop dead the day she ate the fruit,
is contradicted by subsequent verses. Stoner would resolve this dilemma by
translating yom as era (thus, Eves sin ushered in an era of
human mortality). I do not share his interpretation of Genesis 2; nevertheless,
I admire his apt illustration of the difficulties of translating Hebrew and the
potential pitfalls of strict literalism. Stoner concludes that young-earth
adherents need to reevaluate their interpretation of Scripture. He urges them to
get rid of faulty assumptions and wrong attitudes:

it is difficult for those who are not scientifically educated to tell the
difference between scientific truth and error Juicy claims about how some
Ph.D. has misread the facts are circulated from Christian to Christian just like
gossip Unfortunately, we might never bother to find out if any of these
stories are true we have been mocking educated men and, what is worse, we
have done it from a position of ignorance.

Chapter 2, "Science, Theology and Truth," emphasizes that scientist
is not the antonym of Christian. Indeed, Stoner says, science has much in
common with religion. Scientists use a set of rules to discover truth from
nature; theologians follow another set of rules to discover truth from the
Bible. Both groups need to exercise faith; both need to be skeptical of their
own theories; both are fallible. Just because scientists claim that something is
true does not mean Christians have to believe the opposite.

In Chapter 3, "The Present-Day Stumbling Block," Stoner summarizes
and refutes eight arguments for interpreting yom literally. He concludes
that there are no compelling theological or hermeneutical reasons why Genesis
must be taken as a chronology of consecutive 24-hour days.

Chapter 4, "A Shadow of Eternity," argues that the universe must
be billions of years old if we can observe galaxies that are billions of
light-years distant. Stoner rebuts young-earth claims that (1) stars are much
closer and smaller than astronomers think they are; (2) the speed of light has
decreased; and (3) God created the stars with light already in transit to make
them appear older than they really are.

Chapter 5, "The Testimony of Many Witnesses," explains several
evidences for antiquity, including tree rings, stratigraphy, lunar soil, and
radiometric dating. It also critiques thirteen scientific arguments for a young
earth, including geomagnetism, polystrate fossils, and alleged fossil human
tracks in the Paluxy River.

Chapter 6 traces the origins of modern scientific creationism to Seventh-Day
Adventist theology and the flood geology of George McCready Price. I do not
understand Stoners rationale for including this discussion. He seems to imply
that his readers should reject the young-earth view because of the religious
tradition in which it arose. This runs counter to his teaching in chapter two:
we should discard the young-earth model because there is overwhelming scientific
evidence against it, not because groups we disagree with happen to
embrace it.

In Chapter 7, Stoner argues that we can read Genesis 1 in a way that is
consistent with current cosmological theories. His concordism is similar to one
given by his grandfather in Science Speaks. In his model, Gen. 1:1
describes the Big Bang; Gen. 1:2 refers to a dark nebula; Gen. 1:3 records
stellar formation; Gen. 1:4 suggests the clearing of interplanetary dust by
solar wind; etc. Stoners interpretation of the creation narrative is very
interesting, and it might be correct. But, like any other theory, his
needs to be held tentatively at the fingertips so that a gentle breeze of fact
can dislodge it easily. The danger with a concordism is that our religious
message may be doubted if the scientific details with which we link it are some
day discredited. According to Stoner, this is precisely what has already
happened with the young-earth paradigm. The current old-earth model may
be right, but we need to tread lightly, as all scientists and theologians should
do.

Stoner says in Chapter 2 that one of his purposes in writing A New Look at
an Old Earth was to prepare Christians to lead scientists to Christ. I
commend him for that goal, but his statement troubles me for two reasons. First,
this book alone cannot accomplish the goal. If Stoner convinces his readers to
abandon the young-earth model, that will at least remove a stumbling block, but
more is necessary. Christian nonscientists will need to become liberally
educated in the sciences if they expect to win the confidence of nonbelieving
scientists. They will also need to study the Bible and be trained in effective
techniques of evangelism. Second, I have long assumed that Christians in
scientific professions (e.g., ASA members) were in a better position to witness
to their unsaved colleagues than nonscientists would be. If God raises up
nonscientists to win scientists, perhaps it means we have neglected our
opportunities.

Every ASA member should read A New Look at an Old Earth. Most of us do
not need to be convinced that the earth is old, but all of us need to hear
Stoners plea for humility. Buy a copy for your churchs library; discuss it
in your adult Sunday school class. Please share this book gently in Christian
love with any brothers and sisters who still adhere to young-earth views.

As advertised, this book is a primer to modern sciences answers to some
very basic questions about the origins of the solar system and the evolution of
our Earth. General readers and undergraduate students get a painless
introduction to modern sciences answers to basic questions about the origins
of the universe, life on Earth, and evolution of humankind. This book is
cleverly organized into a question-answer based format that offers a third
person narrative asking the questions that lead to a response by one of three
subject-matter experts.

The unintimidating questioner is deputy editor-in-chief of the weekly
magazine LExpress, Dominique Simonnet. Throughout this three act (nine
scene) book, Simonnet poses questions to the cast: Hubert Reeves, an
astrophysicist professor at the University of Montreal; Joel De Rosney, an
organic chemist who was formerly the director of the famed Pasteur Institute and
currently directs the City of Science in Paris; and Yves Coppens, an
anthropologist and professor at the College de France who co-discovered Lucy.
Topics for these acclaimed scientists include the big bang theory, the chemistry
of DNA, the four fundamental physical forces, and various discoveries of hominid
fossils.

"What this book intends is to describe, in easily understandable terms,
[the] history of the universe and the world, relying on the latest scientific
knowledge." The three actsthe cosmos, life, and humankindcover
roughly fifteen billion years, the estimated time of the universes existence.

Reeves leads off by offering a prescription for the story of cosmology from
the formation of the basic building blocks of matter in the era after the Big
Bang to the convergence of our planets around our sun. Assisting us to
understand the vastness of the universe in which we live, Reeves helps the
reader to understand that "whenever you focus your telescope on any given
region of the universe, what youre really doing is observing a moment of its
history." Brimming full with laymens examples, this act sets the stage
well for the rest of the book.

After understanding what makes our planet different from the others in the
solar system, De Rosnay then examines how the conditions that existed on
primitive Earth gave rise to life as we know it today. One of the biggest
lessons offered by De Rosnay is that "life does not evolve spontaneously,
it took a very long time for it to appear." Even more so, De Rosnay
explores the three "solutions" which explain the initial
manifestations of life: divine intervention, chance, and an extraterrestrial
mean.

Finally, Coppens concludes that "the evolution of the universe, like
that of life, has been, to say the least, chaotic." In the final act, he
recapitulates the now familiar African origin of hominids, their gradual
development into our human ancestors, their invention of technology, and their
spread throughout the world. Realizing that "Africa could be the cradle of
the human race," and framed by a series of droughts, Coppens tells us that
humankind has evolved to what it is today.

This leads us to the final question posed by Simonnet in the closing
chapters: "How would you characterize this next act?" In response, De
Rosnay offers that the future of humankind will embody the "cultural
evolution," where "we are constantly improving the mastery of our body
and of our environment." In the end, Origins is a great handbook
that defines how the universe evolved, and how the future will most likely
unfold. It continuously reminds us that "we are but a flickering spark in
the overall context of the universe."

Jaki, Distinguished Professor at Seton Hall University, is one of the
twentieth centurys most prolific historians and philosophers of science. He
has earned doctorates in both theology and physics, written nearly forty books,
made an honorary member of the Pontifical Academy of Science, and was the
recipient of the Lecomte du Nouy Prize for 1970 and the Templeton Prize for
1987. His work is not easily categorized. Although he is a staunch foe of
scientism, Jaki avoids identification with some of the more parochial
evangelical Christian responses to matters of evolution, design, and teleology.
In this provocative essay, Jaki vigorously defends realist epistemology and the
importance of metaphysics. In the process, he presents a sustained critique of
"the baneful influence of science on philosophy."

Jaki begins by asserting that a philosopher must rely upon the reality of the
means used to convey any philosophical message. The meansusually a book, but
not necessarily sois something tangible, real. And the use of any means
"obligates the philosopher to recognize the objective truth of means, so
many objects." Rational discourse must begin with the reality of objects.
Any attempt to deny the reality of the means (that is, objects) leads to all
sorts of epistemological "sleights of hand" which have marked the
Western philosophical tradition, especially since Kant. The rest of the book is
an extended investigation of the implications of the philosophical priority of
the means over the message, which prompts Jaki to discuss a wide range of
topics, often with devastating clarity: free will, purpose, causality, change,
the mind, the universe, ethics, God, history, and miracles.

While it is a philosophical treatise, Means to Message will be of
particular interest to scientists. Jaki minces no words: "Philosophy is in
the process of being swallowed up by science, or what is just as disastrous,
philosophy is being confused with the discourse of nonscientists who ape
science." Science should not be done as a form of philosophy, Jaki argues.
We ought not rush to science to gain our philosophical insights, especially
since science is unable to account for the reality of the means that bears its
messages. A controversial example is twentieth-century theoretical physics,
which, Jaki contends, has constructed an edifice of quantitative ideas and
beautiful mathematical propositions unable to provide "the very material,
tangible physical reality, on which its equations are supposed to work."
One might well challenge Jakis characterization of theoretical physics as
reductionistic, but he is correct to note that science dominates contemporary
cultural discourse. Senior scientists who lack the clarity of sophisticated
philosophical reasoning are increasingly lionized as important philosophical
voices. And popularizers recklessly ransack science to put a "scientific
veneer" on patently nonscientific claims ranging from uncertainty to the
nature of the cosmos. We live in a culture where "scientific
packaging" dominates serious discourse.

Another example is the philosophical myopia evidenced by the acceptance of
the view that a purposeless evolutionary process could produce a being whose
very nature is to act for a purpose. Jaki is not taking on evolution per se, but
the unjustified ideology of evolutionism, based on the "miscegenation of
chance and necessity." Chance, Jaki contends, is a "glorious cover-up
for ignorance," and necessity is "refuted by the very freedom whereby
it is posited." Jaki finds it duplicitous to argue for necessity and
purposelessness in books freely written for a purpose.

Many readers will no doubt take exception to some of Jakis bold
assertions, not the least of which is his relegation of science to the
magisterium of the measurable. Yet rare indeed will be the reader who does not
gain from a careful examination of this book. With so many in the science and
theology field recasting the historic doctrines of Christianity to comport with
the current scientific thinking in ways often unrecognizable, Jaki remains a
strong voice of caution. Means to Message is recommended both as a great
introduction to Jakis substantial work and a noteworthy philosophical essay
on the limits of science in an age of science.

Eberts premise for Twilight of the Clockwork God: Conversations on
Science and Spirituality at the End of an Age revolves around establishing
that our predictable world, a world where science and laws dictate the
outcome, is quickly becoming obsolete. This clockwork god is the deity who, in
Isaac Newtons universe, set the great celestial clock in motion and then
walked away to let natural law take over daily regulation of the spheres.
"The transformation of scientific theories into mythic analogs will create
a more affective language for science what religion can borrow from science,
on the other hand, is new knowledge about the universe that, in turn, can
transform through the mythic imagination."

Using a series of interviews as a venue for conveying his complex, but
thoroughly complete, thesis, Ebert resoundingly supports his premise that the
world view of materialism is currently undergoing transformation into a more
spiritually informed way of regarding the cosmos. The interview style helps keep
the reader from becoming lost in unfamiliar and advanced theory-based ideas and
helps us to understand the many players involved in supporting his propositions.

Ebert has been an editor with the Joseph Campbell Foundation for six years. A
graduate of Arizona State University, he is a recognized authority on the
relevance of mythology to contemporary society, especially that of myth to
science. He has written and spoken extensively on these subjects in national
journals, reviews, and public speaking tours. Ebert has appeared as the expert
on mythology numerous times on A&E Channels Ancient Mysteries.

"According to this neat but limited understanding, religion worshiped
the clockmaker god, whereas science examined the clock." This clockwork god
should have been put to rest and "yet we continue to maintain faith in the
absolute power of our scientific knowledge and believe, that, in the end, more
technology will resolve the problems that surround us." That is why this
book is so important. As stated in the forward by F. David Peat: "it argues
powerfully for the new vision of nature, and ourselves, that emerged in this
century." This "new" type of thinking is not monolithically
hierarchical; rather it is a fusion of two of the most powerful spheres related
to humankind: science and religion.

An intriguing book, with interviews from Brian Swimme, Deepak Chopra, William
Irwin Thompson, Rupert Sheldrake, Ralph Abraham, Lynn Margulis, Terrance
McKenna, and Stansilov Grof, Twilight of the Clockwork God is clearly a
multidisciplinary approach in support of Eberts theory that there is a
distinct relationship between the imagery shared by archaic myth and
contemporary science. Drawing from this new generation of scientists, all of
whom extrapolate great inspiration from mythology in their scientific practice,
Ebert masterfully illustrates their place in the history and development of
Western thought.

Giere, a philosopher of science who originally trained as a physicist,
advocates a multidisciplinary perspective on science that avoids the excesses of
either extreme relativism or extreme essentialism. Through the essays collected
in this volumeall but one have been published elsewhereGiere attempts to
demonstrate that we can have realism without truth, and scientific judgment
without rationality. He begins from the position that there is genuine
scientific knowledge that has accumulated, especially over the last century.
However, he argues that trouble arises when we assume that the same world view,
within which we were able to develop successful scientific theories, provides a
firm foundation for theories about science. The idealism and universalism of the
Enlightenment project, both of which have been institutionalized in science and
the philosophy of science, prevent us from developing theories of science that
reflect actual scientific practice. For Giere, notions of scientific truth,
scientific rationality, and laws of nature largely based on theological
imperatives only serve to misdirect our efforts to understand science.

Giere advocates a naturalistic approach to the study of science that is
characterized by a focus on practice, rather than trying to explain science on
the basis of some supernatural or nonempirical system, no matter how logically
consistent such a system might be. Giere also argues that models are the primary
representational entities of science, and that, in practice, scientists are
concerned with the goodness of fit between their models and the world around
them. In several places, Giere uses the example of the pendulum, or simple
harmonic oscillator, to illustrate the effectiveness of models.

The idea that there can be realism without truth is based on the idea that
conceptually what is meant by realism is whatever our best representations of
the world can provide. In other words, realism has to do with the fit between a
model and the real world, and the fit will always be partial and imperfect. Any
notion of truth in this respect is reserved for discussions of the internal
characteristics of the model itself. Similarly, when Giere argues that we can
have scientific judgments without rationality, he is not implying that
scientific judgments are irrational, but that they are not rational in some
formal or strictly logical sense. Instead, they reflect an instrumental
rationality that will be based on a multitude of cultural, social, and practical
factors.

The book is divided into three sections, and the essays are arranged
according to their difficulty and to their intended audience. The first section
is intended for a general readership of scientists, historians, philosophers,
and sociologists of science, as well as undergraduate students in these areas.
The middle section is directed at those scholars involved more directly in
science studies, and the language and examples used by the author reflect
ongoing debates in this field. The final section is intended for philosophers of
science and as with the essays in the middle section, the form and content of
the authors arguments reflect the norms of the discipline. Most chapters
serve to develop Gieres naturalistic approach to science and the majority
contain an illustration of some successful model. The final two chapters,
however, one on the history of logical empiricism and a very brief one on the
concept of underdetermination, appear to be random add-ons that do little to
advance the authors position.

From my perspective, the major problem with this book is that it is highly
repetitive. I was unable to determine how the work as a whole advanced my
understanding of Gieres position beyond what I could glean from any one of
the individual essays. In fact, for those readers interested in the details of
Gieres position, I would recommend his 1988 book, Explaining Science.

Reviewed by Robert A. Campbell, University College of Cape Breton, Sydney,
NS, Canada B1P 6L2.

Gieryn has for many years been in the thick of the debates about the nature
of science and the boundary between science and nonscience. His earlier books
have argued for a sociological construction view of science. He does not fall,
however, into the trap of a reductionist subjectivism that sees science as only a socially constructed view of the world. That is, he believes that science does
provide real information about the real world rather than just an ontological
reality of our own making (e.g., Von Glassersfeld). His earlier edited work, Theories
of Science in Society, sketched out a number of ways in which societal
beliefs, mores, and institutions shape the direction, scope, and growth of
science.

This work concentrates on the cultural boundaries that distinguish science
from nonscience. Typically, demarcation arguments have focused on the more
objective methods of the sciences versus other fields of human endeavor, the
power of peer review, the creative use of technologies, and elaborate
theoretical (explanatory) constructs to account for disparate empirical data.
Gieryn argues that the credibility of science arises not from these essentially
internal features but from cultural authority in the form of "cultural
maps" that people use to decide whom to believe. He argues rightlyin
this reviewers mindthat there are no fixed criteria whereby science can be
demarcated from nonscience. Science is a pliable cultural space within human
belief systems that at different points in time has exhibited markedly different
responses to such artifacts as phrenology, cold fusion, various social science
theories, and "organic" medicine and agriculture.

A series of specific and highly diverse case studies are used to illustrate
his points and forge the essential argument. The first chapter looks at John
Tyndalls double boundary-work exploring science, religion, and mechanics in
Victorian England. The second chapter takes up the struggles of the U.S.
Congress to demarcate natural science and social science beginning with the
Office of Scientific Research and Development (OSRD) in the 1940s through issues
surrounding the social sciences within the National Science Foundation. The
third vignette looks at the competition for appointment to the Chair of Logic
and Metaphysics at the University of Edinburgh in 1836 between the phrenologist
George Combe of Edinburgh and the Oxford-trained philosopher from the Scottish
Common Sense school, Sir William Hamilton. Next he takes up the story of cold
fusion at the University of Utah, focusing especially on the medias role in
shaping perceptions and understandings about the legitimacy of the claims being
advanced. His final case concerns Albert and Gabrielle Howard and the fusion of
composting, science, sociology, and culture. His concluding chapter provides
fresh insights into the current science culture wars, including public debates
within and outside science about "creation" and "evolution."
This is a useful book to obtain, read, discuss, and mull over in light of
whatever new theories in the name of science are advanced.

Geisler serves as dean and professor at Southern Evangelical Seminary. His
books, mostly in the area of apologetics, include Christian Apologetics, When
Skeptics Ask, and Answering Islam. This book is addressed to a wide audience and includes all Christians who encounter skeptics or are dealing with
their own skepticism. It is intended to provide extensive coverage of
philosophical systems, contemporary issues, difficult biblical passages, and
apologetic concepts.

Apologetics is a rational defense of the Christian faith, and Geisler strives
to provide appropriate and reasonable responses to critics of Christianity. The classic charges and questions against Christianity are presented along with
possible answers. According to the publisher, this book "stands as the
culmination of the authors lifelong career and ministry." It contains an
extensive bibliography as well as Scripture and article indices. The
alphabetical listing of the articles makes the information easy to locate.
Topics discussed include creation, Darwin, determinism, the problem of evil,
evolution, and science and the Bible.

Van Huyssteen is a Professor of Theology and Science at Princeton Theological
Seminary. He is the author of two other books and numerous papers on theology
and science. In this book, van Huyssteen discusses the nature of human
rationality, and how it can successfully bridge varied domains of life (e.g.,
science and theology). The view that we have inherited from modernity is that
the impressive performances of the hard sciences stand in stark contrast to the
relative irrationality of religion. But the real issue between science and
religion has not been one of propositions, but rather of powerclaims to
authority. Both science and religion, however, now find themselves challenged by
postmodernisms irrationalism. We must not let rationality slip away or we
will lose that which gives us our uniqueness as human beings.

The first chapter explores the nature of postmodernism. Postmodernism
challenges sciences claims of objectivity. For example, scientists compete
subjectively for the acceptance of their individual results and theories. The
direction of scientific research is influenced by the politically driven
distribution of research funds. The list goes on and on. Though on the surface
it appears that postmodernism improves the relationship between science and
theology by blurring disciplinary boundaries, postmodernism actually challenges
rationality and thus removes any possibility for science and theology to relate
to one another.

Chapter two focuses on nonfoundationalism as an important root of
postmodernism. Modernisms foundationalism claims that knowledge rests on a
few self-evident facts. Postmodernisms nonfoundationalism claims there are no
fundamental bases of truth. Nonfoundationalism is devastating to the attempt to
relate science and theology because it removes any possibility for common
ground. But foundationalist scientists and theologians have disagreed on the
foundations of knowledge, which has also removed any possibility of dialogue.
Van Huyssteen argues for what he calls postfoundationalism. Theological and
scientific truth claims must be viewed as fallible and provisional but
rationality provides the common ground on which science and theology can meet.
This trust in human rationality is distinctly modernist.

Chapter three details postfoundationalism. Postfoundationalism avoids
postmodernisms nonfoundationalism, and also avoids modernisms claim for a
single unified knowledgea "splitting of the difference" between
modernism and postmodernism. The classical notion of rationality has been
decidedly scientific in its emphasis on universality and its lack of emphasis on
values. Van Huyssteen calls for a broader model of rationality that includes
problem-solving ability and an awareness of experience and social surroundings.
This model of rationality can be applied equally well to science, theology, and
their relationship.

Chapter four shows how the richness of human rationality reaches both science
and theology, and thus can be used to break down the traditional modernist
separation between the two. Scientific knowledge differs from religious
knowledge only in degree. Science and theology offer complementary
interpretations of our experience. The common evangelical belief that commitment
precedes religious understanding is a form of fideism that erects a barrier
between science and theology. The view that science and religion are
complementary, because science answers "how" questions while religion
answers "why" questions, results in the privatization of religion.
Science and religion differ in many ways but they share the same rationality.

Chapter five argues that the dialogue between science and religion begins
with opinions and values. Theology, like science, does not have a single focus
or overriding concern that defines its current image. Theology and science need
to deal with this fragmentation by avoiding the arrogance of prescribing
foundationalist rules for interdisciplinary dialogue. Both sides must accept the
fact that others will not only differ, but that it may be perfectly rational for
them to do so. Both sides must embrace intellectual honesty, which will be
different for each person because of varying experiences and traditions.
However, this postfoundationalism escapes relativism by claiming that
rationality is only conditioned (rather than determined) by context.

This treatise is an in-depth treatment by an eminent scholar. It has over 150
bibliographic references, and I came away with the impression that it was
written more for the specialist than the layperson. The author makes no attempt
to communicate in an easily accessible style or vocabulary. There are other
books on the topic that are less difficult, but for those willing to put some
work into it, this book is full of subtle yet crucial themes on the relationship
between science and theology.

"Get some counseling," the Bible teacher told the woman in her
group who was suffering in an abusive marriage. "Talk to a counselor,"
was the advice of the pastor of a church where a member was involved in
molesting a child of another family in the same congregation. "You might be
depressed, maybe its a chemical imbalance," we told our friend.
"Have you considered counseling?" Does this sound familiar? According
to the author of Unholy Madness, it is all too familiar.

In this well-written book, Farber contends that the church should be more
involved in caring for those with emotional problems, an argument posited by
other writers such as Larry Crabb. But this book goes far beyond urging that
professional counselors be replaced by caring elders. Farber follows the radical
psychiatrists, Thomas Szasz and R. D. Laing, who contend that there is really no
such thing as mental illness. With a changed paradigm, care for people diagnosed
as mentally ill could be handled in the church, Farber reasons, if the church
were more countercultural and more egalitarian.

He writes of the damage caused by Augustinian theology. Because Augustine
believed strongly in the sovereignty of God, humans were not encouraged to
realize their God-given potential. What is needed, he stresses, is a true
humanism, not "the misanthropic Augustinian anthropology that has pervaded
Christianity for centuries."

Christianity as the official religion of the Roman Empire also has had a
deleterious effect on the church. By becoming part of the culture and losing its
countercultural stance, the church became irrelevant. Unlike the
anti-Augustinian stance, other authors (most recently, Cal Thomas and Ed Dobson
in Blinded by Might) have suggested that the most effective way for the
church to influence society and culture is by being the church. This means a
concern for programs and organization.

Unholy Madness is a thought-provoking book. I am not a counselor or a
psychiatrist, but I find it hard to accept that there is no such thing as true
mental illness. I heartily agree that we live in a society obsessed by therapy.
And I agree that the church turns too quickly to therapy rather than searching
for spiritual meanings in the experiences of those put into the "mental
illness" category. But I find Farbers polemic against mental illness a
bit extreme. When I discussed the book with a practicing Christian psychologist,
he said that his experience convinces him that mental illness does indeed exist.
Whether or not you agree, I recommend this book to anyone concerned with the
psychiatric industry and its relationship to the church and society.